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Model for biological activity

The only example known, (576), was prepared during an examination of compounds of type (575) as models for biologically active alkylating agents (75MI51804). [Pg.647]

Hansch and Fujita (5) have proposed a model for biological activity which may be expressed by the following equation ... [Pg.259]

The HYBOT descriptors were successfully applied to the prediction of the partition coefficient log P (>i--octanol/water) for small organic componnds with one acceptor group from their calculated polarizabilities and the free energy acceptor factor C, as well as properties like solubility log S, the permeability of drugs (Caco-2, human skin), and for the modeling of biological activities. [Pg.430]

Worth AP, Cronin MTD. Embedded cluster modelling a novel QSAR method for generating elliptic models of biological activity. In Balls M, van Zeller A-M,... [Pg.492]

Prediction of ADME properties should be simple, since the number of descriptors underlying the properties is relatively small, compared to the number associated with effective drug-receptor binding space. In fact, prediction of ADME is difficult The current ADME experimental data reflect a multiplicity of mechanisms, making prediction uncertain. Screening systems for biological activity are typically single mechanisms, where computational models are easier to develop [1],... [Pg.3]

Studies have been carried out on the methylated complex [H3C-Niin(17)(H20)]2+, which is obtained from the reaction of methyl radicals (generated by pulse radiolysis) with [Ni(17)]2+. The volumes of activation are consistent with the coherent formation of Ni—C and Ni—OH2 bonds, as expected for the generation of a Ni111 complex from a square planar Ni11 precursor.152 The kinetics of reactions of [H3C-Niin(17)(H20)] + involving homolysis, 02 insertion and methyl transfer to Crn(aq) have been determined, and intermediates have been considered relevant as models for biological systems.153 Comparing different alkyl radicals, rate constants for the... [Pg.257]

Cyclic imines 8 and 9 are intermediates or models of biologically active compounds and can be reduced with ee-values of 88 to 96% using Ti-ebthi, Ir-bcpm or Ir-binap in the presence of additives (entries 5.7, 5.9), as well as with the transfer hydrogenation catalyst Ru-dpenTs (entries 5.8, 5.10-5.12). As pointed out earlier, Ru-diphosphine-diamine complexes are also effective for imines, and the best results for 7 and 8a were 88% and 79% ee, respectively [36]. Azirines 10 are unusual substrates which could be transfer-hydrogenated with a catalyst prepared in situ from [RuCl2(p-cymene)]2 and amino alcohol L12, with ee-values of 44 to 78% and respectable TOFs of up to 3000 (entry 5.13). [Pg.1203]

As indicated above, theoretical models for biological rhythms were first used in ecology to study the oscillations resulting from interactions between populations of predators and preys [6]. Neural rhythms represent another field where such models were used at an early stage The formalism developed by Hodgkin and Huxley [7] stiU forms the core of most models for oscillations of the membrane potential in nerve and cardiac cells [33-35]. Models were subsequently proposed for oscillations that arise at the cellular level from regulation of enzyme, receptor, or gene activity (see Ref. 31 for a detailed fist of references). [Pg.259]

There have also been significant advances in the imido chemistry of ruthenium and osmium. A variety of imido complexes in oxidation states +8 to +6 have been reported. Notably, osmium (VIII) imido complexes are active intermediates in osmium-catalyzed asymmetric aminohydroxyl-ations of alkenes. Ruthenium(VI) imido complexes with porphyrin ligands can effect stoichiometric and catalytic aziridination of alkenes. With chiral porphyrins, asymmetric aziridination of alkenes has also been achieved. Some of these imido species may also serve as models for biological processes. An imido species has been postulated as an intermediate in the nitrite reductase cycle. " ... [Pg.735]

The ability of cyclic ethers to complex biologically important alkylammonium cations makes the choice of crown ethers as enzyme binding site models a natural one. In recent years a number of molecules containing both a crown ether-based substrate binding site and a potentially reactive group have been prepared as models for enzyme active sites (79PAC979, B-82MI52100). [Pg.753]

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See also in sourсe #XX -- [ Pg.253 ]



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